Clazz.declarePackage("J.export");
Clazz.load(["J.export.__CartesianExporter", "java.util.Hashtable", "JU.P3"], "J.export._VrmlExporter", ["JU.A4", "$.AU", "$.Lst", "$.Measure", "$.PT", "$.Quat", "J.export.UseTable", "JU.Geodesic", "JV.Viewer"], function(){
var c$ = Clazz.decorateAsClass(function(){
this.useTable = null;
this.htSpheresRendered = null;
this.plateVertices = null;
this.plateIndices = null;
this.plateColixes = null;
this.tempQ1 = null;
this.tempQ2 = null;
this.tempQ3 = null;
this.oneFace = null;
this.threeVertices = null;
this.fontSize = 0;
this.fontFace = null;
this.fontStyle = null;
this.fontChild = null;
Clazz.instantialize(this, arguments);}, J["export"], "_VrmlExporter", J["export"].__CartesianExporter);
Clazz.prepareFields (c$, function(){
this.htSpheresRendered =  new java.util.Hashtable();
this.tempQ1 =  new JU.P3();
this.tempQ2 =  new JU.P3();
this.tempQ3 =  new JU.P3();
});
Clazz.makeConstructor(c$, 
function(){
Clazz.superConstructor (this, J["export"]._VrmlExporter, []);
this.useTable =  new J["export"].UseTable("USE ");
this.commentChar = "# ";
this.canCapCylinders = true;
this.solidOnly = true;
});
Clazz.defineMethod(c$, "output", 
function(pt){
this.output(J["export"].___Exporter.round(pt));
}, "JU.T3");
Clazz.overrideMethod(c$, "outputHeader", 
function(){
this.output("#VRML V2.0 utf8 Generated by Jmol " + JV.Viewer.getJmolVersion() + "\n");
this.output("WorldInfo { \n");
this.output(" title " + JU.PT.esc(this.vwr.ms.modelSetName) + "\n");
this.output(" info [ \"Generated by Jmol " + JV.Viewer.getJmolVersion() + " \", \n");
this.output("  \"http://www.jmol.org \", \n");
this.output("  \"Creation date: " + this.getExportDate() + " \" ]\n");
this.output("} \n");
this.output("NavigationInfo { type \"EXAMINE\" } \n");
this.output("Background { skyColor [" + this.rgbFractionalFromColix(this.backgroundColix) + "] } \n");
var angle = this.getViewpoint();
this.output("Viewpoint{fieldOfView " + angle);
this.output(" position ");
this.cameraPosition.scale(this.exportScale);
this.output(this.cameraPosition);
this.output(" orientation ");
this.output(this.tempP1);
this.output(" " + -this.viewpoint.angle);
this.output("\n jump TRUE description \"v1\"\n}\n\n");
this.output(this.getJmolPerspective());
this.outputInitialTransform();
this.output("\n");
});
Clazz.defineMethod(c$, "outputInitialTransform", 
function(){
this.pushMatrix();
this.outputAttr("scale", this.exportScale, this.exportScale, this.exportScale);
this.outputCloseTag();
this.outputChildStart();
this.pushMatrix();
this.tempP1.setT(this.center);
this.tempP1.scale(-1);
this.outputAttrPt("translation", this.tempP1);
this.outputCloseTag();
this.outputChildStart();
});
Clazz.defineMethod(c$, "getViewpoint", 
function(){
this.viewpoint.setM(this.vwr.tm.matrixRotate);
this.tempP1.set(this.viewpoint.x, this.viewpoint.y, (this.viewpoint.angle == 0 ? 1 : this.viewpoint.z));
return (this.apertureAngle * 3.141592653589793 / 180);
});
Clazz.overrideMethod(c$, "outputFooter", 
function(){
this.useTable = null;
this.output("\n]}\n");
this.output("]}");
});
Clazz.defineMethod(c$, "outputAppearance", 
function(colix, isText){
var def = this.getDef((isText ? "T" : "") + colix);
this.output("appearance ");
if (def.charAt(0) == '_') {
var color = this.rgbFractionalFromColix(colix);
this.output(" DEF " + def + " Appearance{material Material{diffuseColor ");
if (isText) this.output(" 0 0 0 specularColor 0 0 0 ambientIntensity 0.0 shininess 0.0 emissiveColor " + color + " }}");
 else this.output(color + " transparency " + J["export"].___Exporter.translucencyFractionalFromColix(colix) + "}}");
return;
}this.output(def);
}, "~N,~B");
Clazz.defineMethod(c$, "pushMatrix", 
function(){
this.output("Transform{");
});
Clazz.defineMethod(c$, "popMatrix", 
function(){
this.output("}\n");
});
Clazz.defineMethod(c$, "outputAttrPt", 
function(attr, pt){
this.output(" " + attr + " " + pt.x + " " + pt.y + " " + pt.z);
}, "~S,JU.T3");
Clazz.defineMethod(c$, "outputAttr", 
function(attr, x, y, z){
this.output(" " + attr + " " + J["export"].___Exporter.round(x) + " " + J["export"].___Exporter.round(y) + " " + J["export"].___Exporter.round(z));
}, "~S,~N,~N,~N");
Clazz.defineMethod(c$, "outputRotation", 
function(a){
this.output(" rotation " + a.x + " " + a.y + " " + a.z + " " + a.angle);
}, "JU.A4");
Clazz.defineMethod(c$, "outputTransRot", 
function(pt1, pt2, x, y, z){
this.tempV1.ave(pt2, pt1);
this.outputAttrPt("translation", this.tempV1);
this.tempV1.sub(pt1);
this.tempV1.normalize();
this.tempV2.set(x, y, z);
this.tempV2.add(this.tempV1);
this.outputRotation(JU.A4.newVA(this.tempV2, 3.141592653589793));
}, "JU.P3,JU.P3,~N,~N,~N");
Clazz.defineMethod(c$, "outputQuaternionFrame", 
function(ptCenter, ptX, ptY, ptZ, xScale, yScale, zScale){
this.tempQ1.setT(ptX);
this.tempQ2.setT(ptY);
var a = JU.Quat.getQuaternionFrame(ptCenter, this.tempQ1, this.tempQ2).toAxisAngle4f();
if (!Float.isNaN(a.x)) {
this.tempQ1.set(a.x, a.y, a.z);
this.outputRotation(a);
}var sx = (ptX.distance(ptCenter) * xScale);
var sy = (ptY.distance(ptCenter) * yScale);
var sz = (ptZ.distance(ptCenter) * zScale);
this.outputAttr("scale", sx, sy, sz);
}, "JU.P3,JU.P3,JU.P3,JU.P3,~N,~N,~N");
Clazz.defineMethod(c$, "outputChildShapeStart", 
function(){
this.outputChildStart();
this.outputShapeStart();
});
Clazz.defineMethod(c$, "outputChildStart", 
function(){
this.output(" children[");
});
Clazz.defineMethod(c$, "outputShapeStart", 
function(){
this.output(" Shape{geometry ");
});
Clazz.defineMethod(c$, "outputDefChildFaceSet", 
function(child){
if (child != null) this.output("DEF " + child + " ");
this.outputFaceSetStart();
}, "~S");
Clazz.defineMethod(c$, "outputFaceSetStart", 
function(){
this.output("IndexedFaceSet {");
});
Clazz.defineMethod(c$, "outputFaceSetClose", 
function(){
this.output("}\n");
});
Clazz.defineMethod(c$, "outputUseChildClose", 
function(child){
this.output(child);
}, "~S");
Clazz.defineMethod(c$, "outputChildShapeClose", 
function(){
this.outputShapeClose();
this.outputChildClose();
});
Clazz.defineMethod(c$, "outputChildClose", 
function(){
this.output("]");
});
Clazz.defineMethod(c$, "outputShapeClose", 
function(){
this.output("}");
});
Clazz.defineMethod(c$, "outputCloseTag", 
function(){
});
Clazz.overrideMethod(c$, "outputCircle", 
function(pt1, pt2, radius, colix, doFill){
if (doFill) {
this.pushMatrix();
this.tempV1.ave(pt1, pt2);
this.outputAttr("translation", this.tempV1.x, this.tempV1.y, this.tempV1.z);
this.output(" children [ Billboard{axisOfRotation 0 0 0 children [ Transform{rotation 1 0 0 1.5708");
var height = (pt1.distance(pt2));
this.outputAttr("scale", radius, height, radius);
this.outputCylinderChildScaled(colix, 2);
this.output("}] }]\n");
this.popMatrix();
return;
}var child = this.getDef("C" + colix + "_" + radius);
this.pushMatrix();
this.outputTransRot(pt1, pt2, 0, 0, 1);
this.outputAttr("scale", radius, radius, radius);
this.output(" children [");
if (child.charAt(0) == '_') {
this.output("DEF " + child);
this.output(" Billboard{axisOfRotation 0 0 0 children [ Transform{children[");
this.output(" Shape{");
this.output("geometry Extrusion{beginCap FALSE convex FALSE endCap FALSE creaseAngle 1.57");
this.output(" crossSection [");
var rpd = 0.017453292;
var scale = 0.02 / radius;
for (var i = 0; i <= 360; i += 10) {
this.output(J["export"].___Exporter.round(Math.cos(i * rpd) * scale) + " ");
this.output(J["export"].___Exporter.round(Math.sin(i * rpd) * scale) + " ");
}
this.output("] spine [");
for (var i = 0; i <= 360; i += 10) {
this.output(J["export"].___Exporter.round(Math.cos(i * rpd)) + " ");
this.output(J["export"].___Exporter.round(Math.sin(i * rpd)) + " 0 ");
}
this.output("]");
this.output("}");
this.outputAppearance(colix, false);
this.output("}");
this.output("]} ]}");
} else {
this.output(child);
}this.output("]");
this.popMatrix();
}, "JU.P3,JU.P3,~N,~N,~B");
Clazz.overrideMethod(c$, "outputCone", 
function(ptBase, ptTip, radius, colix){
var height = (ptBase.distance(ptTip));
this.pushMatrix();
this.outputTransRot(ptBase, ptTip, 0, 1, 0);
this.outputAttr("scale", radius, height, radius);
this.outputCloseTag();
this.outputChildShapeStart();
var child = this.getDef("c");
if (child.charAt(0) == '_') {
this.outputDefChildFaceSet(child);
this.outputConeGeometry(true);
this.outputFaceSetClose();
} else {
this.outputUseChildClose(child);
}this.outputAppearance(colix, false);
this.outputChildShapeClose();
this.popMatrix();
}, "JU.P3,JU.P3,~N,~N");
Clazz.defineMethod(c$, "outputConeGeometry", 
function(addBase){
var ndeg = 10;
var n = Clazz.doubleToInt(360 / ndeg);
var vertexCount = n + (addBase ? 2 : 1);
var faces = JU.AU.newInt2(n * (addBase ? 2 : 1));
for (var i = 0, fpt = 0; i < n; i++) {
faces[fpt++] =  Clazz.newIntArray(-1, [i, (i + n - 1) % n, n]);
if (addBase) faces[fpt++] =  Clazz.newIntArray(-1, [i, (i + 1) % n, n + 1]);
}
var vertexes =  new Array(vertexCount);
for (var i = 0; i < n; i++) {
var x = (Math.cos(i * ndeg / 180. * 3.141592653589793));
var y = (Math.sin(i * ndeg / 180. * 3.141592653589793));
vertexes[i] = JU.P3.new3(x, -0.5, y);
}
vertexes[n++] = JU.P3.new3(0, 0.5, 0);
if (addBase) vertexes[n++] = JU.P3.new3(0, -0.5, 0);
this.outputGeometry(vertexes, null, null, faces, null, vertexCount, faces.length, null, 3, null, null, null);
}, "~B");
Clazz.overrideMethod(c$, "outputCylinder", 
function(ptCenter, pt1, pt2, colix, endcaps, radius, ptX, ptY, checkRadius){
var height = (pt1.distance(pt2));
if (radius < 0.01 || height == 0) return false;
this.pushMatrix();
if (ptX == null) {
this.outputTransRot(pt1, pt2, 0, 1, 0);
this.outputAttr("scale", radius, height, radius);
} else {
this.outputAttrPt("translation", ptCenter);
this.outputQuaternionFrame(ptCenter, ptY, pt1, ptX, 2, 2, 2);
pt1.set(0, 0, -0.5);
pt2.set(0, 0, 0.5);
}this.outputCloseTag();
this.outputCylinderChildScaled(colix, endcaps);
this.popMatrix();
if (radius > 0.1) switch (endcaps) {
case 3:
this.outputSphere(pt1, radius * 1.01, colix, checkRadius);
case 5:
case 4:
this.outputSphere(pt2, radius * 1.01, colix, checkRadius);
break;
case 2:
break;
}
return true;
}, "JU.P3,JU.P3,JU.P3,~N,~N,~N,JU.P3,JU.P3,~B");
Clazz.defineMethod(c$, "outputCylinderChildScaled", 
function(colix, endcaps){
this.outputChildShapeStart();
var child = this.getDef("C" + "_" + endcaps);
if (child.charAt(0) == '_') {
this.outputDefChildFaceSet(child);
this.outputCylinderGeometry(endcaps);
this.outputFaceSetClose();
} else {
this.outputUseChildClose(child);
}this.outputAppearance(colix, false);
this.outputChildShapeClose();
}, "~N,~N");
Clazz.defineMethod(c$, "outputCylinderGeometry", 
function(endcaps){
var ndeg = 10;
var n = Clazz.doubleToInt(360 / ndeg);
var vertexCount = n * 2;
var addEndcaps = false;
switch (endcaps) {
case 3:
case 5:
case 4:
case 2:
vertexCount += 2;
addEndcaps = true;
break;
}
var faces = JU.AU.newInt2(n * (addEndcaps ? 4 : 2));
for (var i = 0, fpt = 0; i < n; i++) {
faces[fpt++] =  Clazz.newIntArray(-1, [i, (i + 1) % n, i + n]);
faces[fpt++] =  Clazz.newIntArray(-1, [(i + 1) % n, (i + 1) % n + n, i + n]);
if (addEndcaps) {
faces[fpt++] =  Clazz.newIntArray(-1, [i, (i + n - 1) % n, vertexCount - 2]);
faces[fpt++] =  Clazz.newIntArray(-1, [i + n, (i + n + 1) % n + n, vertexCount - 1]);
}}
var vertexes =  new Array(vertexCount);
for (var i = 0; i < n; i++) {
var x = (Math.cos(i * ndeg / 180. * 3.141592653589793));
var y = (Math.sin(i * ndeg / 180. * 3.141592653589793));
vertexes[i] = JU.P3.new3(x, 0.5, y);
}
for (var i = 0; i < n; i++) {
var x = (Math.cos((i + 0.5) * ndeg / 180 * 3.141592653589793));
var y = (Math.sin((i + 0.5) * ndeg / 180 * 3.141592653589793));
vertexes[i + n] = JU.P3.new3(x, -0.5, y);
}
if (addEndcaps) {
vertexes[vertexCount - 2] = JU.P3.new3(0, 0.5, 0);
vertexes[vertexCount - 1] = JU.P3.new3(0, -0.5, 0);
}this.outputGeometry(vertexes, null, null, faces, null, vertexCount, faces.length, null, 3, null, null, null);
}, "~N");
Clazz.overrideMethod(c$, "outputSphere", 
function(ptCenter, radius, colix, checkRadius){
var check = J["export"].___Exporter.round(ptCenter) + (checkRadius ? " " + Clazz.floatToInt(radius * 100) : "");
if (this.htSpheresRendered.get(check) != null) return;
this.htSpheresRendered.put(check, Boolean.TRUE);
this.outputSphereChildScaled(ptCenter, radius, null, colix);
}, "JU.P3,~N,~N,~B");
Clazz.overrideMethod(c$, "outputEllipsoid", 
function(ptCenter, points, colix){
this.outputSphereChildScaled(ptCenter, 1.0, points, colix);
}, "JU.P3,~A,~N");
Clazz.defineMethod(c$, "outputSphereChildScaled", 
function(ptCenter, radius, points, colix){
this.pushMatrix();
this.outputAttrPt("translation", ptCenter);
if (points == null) this.outputAttr("scale", radius, radius, radius);
 else this.outputQuaternionFrame(ptCenter, points[1], points[3], points[5], 1, 1, 1);
this.outputCloseTag();
this.outputChildShapeStart();
var child = this.getDef("S");
if (child.charAt(0) == '_') {
this.outputDefChildFaceSet(child);
this.outputSphereGeometry();
this.outputFaceSetClose();
} else {
this.outputUseChildClose(child);
}this.outputAppearance(colix, false);
this.outputChildShapeClose();
this.popMatrix();
}, "JU.P3,~N,~A,~N");
Clazz.defineMethod(c$, "outputSphereGeometry", 
function(){
var vertices = JU.Geodesic.getVertexVectors();
var nVertices = 162;
var faceList = JU.Geodesic.getFaceVertexes(2);
var nFaces = Clazz.doubleToInt(faceList.length / 3);
var indices =  Clazz.newIntArray (nFaces, 3, 0);
for (var i = 0, p = 0; i < nFaces; i++) for (var j = 0; j < 3; j++) indices[i][j] = faceList[p++];


this.outputGeometry(vertices, null, null, indices, null, nVertices, nFaces, null, 3, null, null, null);
});
Clazz.overrideMethod(c$, "outputSolidPlate", 
function(tempP1, tempP2, tempP3, colix){
if (this.plateVertices == null) {
this.plateVertices =  new Array(6);
for (var i = 0; i < 6; i++) this.plateVertices[i] =  new JU.P3();

this.plateIndices =  Clazz.newArray(-1, [ Clazz.newIntArray(-1, [0, 1, 2]),  Clazz.newIntArray(-1, [5, 4, 3]),  Clazz.newIntArray(-1, [0, 3, 1]),  Clazz.newIntArray(-1, [1, 3, 4]),  Clazz.newIntArray(-1, [1, 4, 2]),  Clazz.newIntArray(-1, [2, 4, 5]),  Clazz.newIntArray(-1, [2, 5, 0]),  Clazz.newIntArray(-1, [0, 5, 3])]);
}JU.Measure.calcNormalizedNormal(tempP1, tempP2, tempP3, this.tempV1, this.tempV2);
this.tempV1.scale(0.2);
this.plateVertices[0].setT(tempP1);
this.plateVertices[1].setT(tempP2);
this.plateVertices[2].setT(tempP3);
for (var i = 0; i < 3; i++) this.plateVertices[i].add(this.tempV1);

this.tempV1.scale(-2);
for (var i = 3; i < 6; i++) this.plateVertices[i].add2(this.plateVertices[i - 3], this.tempV1);

this.outputSurface(this.plateVertices, null, null, this.plateIndices, this.plateColixes, 6, 8, 8, null, 3, colix, null, null, null);
}, "JU.P3,JU.P3,JU.P3,~N");
Clazz.overrideMethod(c$, "outputSurface", 
function(vertices, normals, colixes, indices, polygonColixes, nVertices, nPolygons, nTriangles, bsPolygons, faceVertexMax, colix, colorList, htColixes, offset){
this.outputShapeStart();
this.outputDefChildFaceSet(null);
this.outputGeometry(vertices, normals, colixes, indices, polygonColixes, nVertices, nPolygons, bsPolygons, faceVertexMax, colorList, htColixes, offset);
this.outputFaceSetClose();
this.outputAppearance(colix, false);
this.outputShapeClose();
}, "~A,~A,~A,~A,~A,~N,~N,~N,JU.BS,~N,~N,JU.Lst,java.util.Map,JU.P3");
Clazz.defineMethod(c$, "outputGeometry", 
function(vertices, normals, colixes, indices, polygonColixes, nVertices, nPolygons, bsPolygons, faceVertexMax, colorList, htColixes, offset){
if (polygonColixes == null) this.output("  creaseAngle 0.5  \n");
 else this.output(" colorPerVertex FALSE\n");
this.output("coord Coordinate {\npoint [\n");
this.outputVertices(vertices, nVertices, offset);
this.output("   ]\n");
this.output("  }\n");
this.output("  coordIndex [\n");
var map =  Clazz.newIntArray (nVertices, 0);
this.getCoordinateMap(vertices, map, null);
this.outputIndices(indices, map, nPolygons, bsPolygons, faceVertexMax);
this.output("  ]\n");
if (normals != null) {
var vNormals =  new JU.Lst();
map = this.getNormalMap(normals, nVertices, null, vNormals);
this.output("  solid FALSE\n  normalPerVertex TRUE\n   normal Normal {\n  vector [\n");
this.outputNormals(vNormals);
this.output("   ]\n");
this.output("  }\n");
this.output("  normalIndex [\n");
this.outputIndices(indices, map, nPolygons, bsPolygons, faceVertexMax);
this.output("  ]\n");
}map = null;
if (colorList != null) {
this.output("  color Color { color [\n");
this.outputColors(colorList);
this.output("  ] } \n");
this.output("  colorIndex [\n");
this.outputColorIndices(indices, nPolygons, bsPolygons, faceVertexMax, htColixes, colixes, polygonColixes);
this.output("  ]\n");
}}, "~A,~A,~A,~A,~A,~N,~N,JU.BS,~N,JU.Lst,java.util.Map,JU.P3");
Clazz.overrideMethod(c$, "outputFace", 
function(face, map, faceVertexMax){
this.output(map[face[0]] + " " + map[face[1]] + " " + map[face[2]] + " -1\n");
if (faceVertexMax == 4 && face.length == 4) this.output(map[face[0]] + " " + map[face[2]] + " " + map[face[3]] + " -1\n");
}, "~A,~A,~N");
Clazz.defineMethod(c$, "outputNormals", 
function(vNormals){
var n = vNormals.size();
for (var i = 0; i < n; i++) {
this.output(vNormals.get(i));
}
}, "JU.Lst");
Clazz.defineMethod(c$, "outputColors", 
function(colorList){
var nColors = colorList.size();
for (var i = 0; i < nColors; i++) {
var color = this.rgbFractionalFromColix(colorList.get(i).shortValue());
this.output(" ");
this.output(color);
this.output("\n");
}
}, "JU.Lst");
Clazz.defineMethod(c$, "outputColorIndices", 
function(indices, nPolygons, bsPolygons, faceVertexMax, htColixes, colixes, polygonColixes){
var isAll = (bsPolygons == null);
var i0 = (isAll ? nPolygons - 1 : bsPolygons.nextSetBit(0));
for (var i = i0; i >= 0; i = (isAll ? i - 1 : bsPolygons.nextSetBit(i + 1))) {
if (polygonColixes == null) {
this.output(htColixes.get(Short.$valueOf(colixes[indices[i][0]])) + " " + htColixes.get(Short.$valueOf(colixes[indices[i][1]])) + " " + htColixes.get(Short.$valueOf(colixes[indices[i][2]])) + " -1\n");
if (faceVertexMax == 4 && indices[i].length == 4) this.output(htColixes.get(Short.$valueOf(colixes[indices[i][0]])) + " " + htColixes.get(Short.$valueOf(colixes[indices[i][2]])) + " " + htColixes.get(Short.$valueOf(colixes[indices[i][3]])) + " -1\n");
} else {
this.output(htColixes.get(Short.$valueOf(polygonColixes[i])) + "\n");
}}
}, "~A,~N,JU.BS,~N,java.util.Map,~A,~A");
Clazz.overrideMethod(c$, "outputTriangle", 
function(pt1, pt2, pt3, colix){
this.output("Shape{geometry IndexedFaceSet{ ");
this.outputTriangleGeometry(pt1, pt2, pt3, colix);
this.output("}\n");
this.outputAppearance(colix, false);
this.output("}\n");
}, "JU.T3,JU.T3,JU.T3,~N");
Clazz.defineMethod(c$, "outputTriangleGeometry", 
function(pt1, pt2, pt3, colix){
if (this.oneFace == null) {
this.oneFace =  Clazz.newArray(-1, [ Clazz.newIntArray(-1, [0, 1, 2])]);
this.threeVertices =  Clazz.newArray(-1, [this.tempP1, this.tempP2, this.tempP3]);
}this.threeVertices[0].setT(pt1);
this.threeVertices[1].setT(pt2);
this.threeVertices[2].setT(pt3);
this.outputGeometry(this.threeVertices, null, null, this.oneFace, null, 3, 1, null, 3, null, null, null);
}, "JU.T3,JU.T3,JU.T3,~N");
Clazz.overrideMethod(c$, "outputTextPixel", 
function(pt, argb){
}, "JU.P3,~N");
Clazz.overrideMethod(c$, "plotText", 
function(x, y, z, colix, text, font3d){
this.pushMatrix();
this.tempP3.set(x, y, this.fixScreenZ(z));
this.tm.unTransformPoint(this.tempP3, this.tempP1);
this.outputAttrPt("translation", this.tempP1);
this.setFont(colix, text, font3d);
this.outputChildStart();
if (this.fontChild.charAt(0) == '_') {
this.output("DEF " + this.fontChild + " Billboard{");
this.outputAttr("axisOfRotation", 0, 0, 0);
this.outputChildStart();
this.pushMatrix();
this.outputChildShapeStart();
this.output("Text{fontStyle ");
var fontstyle = this.getDef("F" + this.fontFace + this.fontStyle);
if (fontstyle.charAt(0) == '_') {
this.output("DEF " + fontstyle + " FontStyle{size " + this.fontSize + " family \"" + this.fontFace + "\" style \"" + this.fontStyle + "\"}");
} else {
this.output(fontstyle);
}this.output(" string " + JU.PT.esc(text) + "}");
this.outputAppearance(colix, true);
this.outputChildShapeClose();
this.popMatrix();
this.outputChildClose();
this.output("}");
} else {
this.output(this.fontChild);
}this.outputChildClose();
this.popMatrix();
}, "~N,~N,~N,~N,~S,JU.Font");
Clazz.defineMethod(c$, "setFont", 
function(colix, text, font3d){
this.fontStyle = font3d.fontStyle.toUpperCase();
this.fontFace = font3d.fontFace.toUpperCase();
this.fontFace = (this.fontFace.equals("MONOSPACED") ? "TYPEWRITER" : this.fontFace.equals("SERIF") ? "SERIF" : "Arial");
this.fontSize = font3d.fontSize * 0.015;
this.fontChild = this.getDef("T" + colix + this.fontFace + this.fontStyle + this.fontSize + "_" + text);
}, "~N,~S,JU.Font");
Clazz.defineMethod(c$, "getDef", 
function(key){
return (this.useTable == null ? "_" : this.useTable.getDef(key));
}, "~S");
});
;//5.0.1-v7 Tue Jul 22 18:14:29 CDT 2025
